DE861926C - Process for the treatment of polyurethane waste - Google Patents

Description

Process for the treatment of wastes of the polyurethanes It is known that ciie polyurethanes are compounds with a higher molecular weight than several known methods, such as. B. by polycondensation of a diol with a Diisocyanate produced by the action of phosgene on a diamine can, can be obtained.

The manufacture and. Processing of the polyurethanes always leads to Formation of waste that is not used in the same way as the starting material can be; because they have suffered changes in the course of their processing, which in the majority of cases result in a reduction in their mechanical properties have caused.

It is possible to use the diol and the diamine which are used to achieve represent a polyurethane necessary starting materials, by hydrolysis of the Recover polyurethane using dilute sulfuric acid, with hydrolysis is accompanied by the evolution of carbon dioxide. But since the polyurethanes with ordinary Pressure cannot be decomposed by this acid even at the boiling point apply fairly high pressure for decomposition to take place. If works with concentrated sulfuric acid at ordinary pressure, it tans the substance without dissolving; if you do this using Repeatedly printing, the results obtained remain poor. By the way, is the The use of sulfuric acid is inconvenient because the hydrolysis is followed by neutralization the acid used must, and the formed mineral salt proves to be disadvantageous in the subsequent isolation of the diamine and the Diols, which are relatively sensitive compounds.

The inventive method allows everyone to use to prevent disadvantages associated with sulfuric acid. It consists in that one the wastes of polyurethanes heated under pressure with water under such conditions, that these polymers are split into diamines and diols, and in the subsequent Separation of these compounds.

The implementation of this process extends to all polyurethanes, no matter what production method, z. B. Polycondensation of diols and diisocyanates and / or diesters of carbamic acids, or polycondensation of diol chlorocarbonates and diamines. This method is particularly useful for polyurethanes made from hexamethylene di-cyanate and 1,4-butanediol and / or 1,6-hexanediol are applicable.

According to the present invention, the temperature to be observed is between preferably zoo and 25o ° and advantageously at 23o °, and the pressure will be kept between 2o and 35 kg / cm2. The reaction process is extended to complete cleavage of the polyurethane into diamine and diol, which one then separated by distillation in vacuo.

It should be mentioned in particular - that the temperature and pressure conditions as well as the heating time depend on the nature of the polyurethane used.

Surprisingly, simply heating under pressure has an effect Water splits the polyurethanes into their essential components, although_ these polymers are very resistant, and moreover their hydrolysis even at strong Dilute or undiluted acids have proven very difficult: Also it is surprising that you can find the formed substances, viz. the diamine and the diol, can be isolated by a relatively simple method without altering it. Thus, by this method it is possible to manufacture the two most valuable ones of the polyurethanes preferred compounds are easy to obtain.

It is known to take polyamides for the purpose of depolymerization with water To heat pressure, however, this method is the subject of the invention not without further ado due to the difference between polyamides and polyurethanes comparable.

The following examples are intended to explain the invention in more detail, without to restrict them. The parts given are parts by weight.

Example i You put goo parts water and 100 parts into an autoclave Waste of a polyurethane, which one from 168 parts of hexamethylene diisocyanate and go share butanediol-i, 4 received. One expels the air with nitrogen, then heated to 2io °; the pressure rises rapidly as a result of the evolution of carbon dioxide; the valve of the autoclave is opened from time to time to around this pressure Hold from 2o to 22 kg / cm2. After 61/2 hours of heating at 20 ° under pressure of about 20 kg / cm2 is allowed to cool and the autoclave is emptied using a Hebers. The hydrolyzate is then distilled at ordinary pressure, thereby removing the water. This is followed by a rectification under 15 mm Hg pressure to separate the diol and diamine.

The yields obtained are almost the same: for hexamethylenediamine 85 0/0 and for the butanediol-i, 4 810/0. Example 2 In the same autoclave, which was mentioned in example i, goo parts water and 100 parts waste of a polyurethane, obtained from 168 parts of hexamethylene diisocyanate and 118 parts of hexanediol-i, 6 became. The process is carried out in the same way as indicated in example i, however, it is heated to 23o ° under 3o to 32 kg / cm2 pressure for 5 hours. After cooling down the hydrolyzate is drawn off and then, as indicated above, distilled.

Yield of hexamethylenediamine: 88 0/0, yield of hexanediol-i, 6 : 84%.

Claims (1)

PATENT CLAIM: Process for the treatment of polyurethane waste, characterized in that this waste with water under pressure under such conditions are heated so that these polymers are split into diamines and diols, which then be separated. References Cited: U.S. Patents No. 2,348,751 and 2,364,387.